KANNO, WELLINGTON M.ROSSETTO, HEBERT L.SOUZA, MILTON F. deMADUAR, MARCELO F.CAMPOS, MARCIA P. deMAZZILLI, BARBARA P.2014-11-172014-11-182015-04-012014-11-172014-11-182015-04-01KANNO, WELLINGTON M.; ROSSETTO, HEBERT L.; SOUZA, MILTON F. de; MADUAR, MARCELO F.; CAMPOS, MARCIA P. de; MAZZILLI, BARBARA P. High strength phosphogypsum and its use as a building material. In: INTERNATIONAL SYMPOSIUM ON THE NATURAL RADIATION ENVIRONMENT, 8th, October 7-12, 2007, Buzios, RJ. <b>Proceedings...</b> DOI: <a href="https://dx.doi.org/10.1063/1.2991234">10.1063/1.2991234</a>. Disponível em: http://repositorio.ipen.br/handle/123456789/18936.http://repositorio.ipen.br/handle/123456789/18936A new process (patent applied) that works equally well with both plaster of mineral gypsum and phosphogypsum for the preparation of gypsum components, UCOS, has been developed. The process consists of the following steps: humidification of plaster by fine water droplets, uni-axial compression, hydration reaction and drying. Strong hydrogen bonds develop among the crystals together with adhesion provided by confined water that accounts for nearly 70% of the adhesion forces. By reducing the plaster to water ratio to close the minimum necessary, new features are generated. An experimental house has been constructed, in which walls and ceilings have been built of gypsum and phosphogypsum. Since phosphogypsum potentially contain radioactive elements, the application of an activity concentration index to the phosphogypsum employed in the building was carried out.openAccessbuilding materialsphosphate rocksgypsumradioactivityTexto completo de evento10.1063/1.2991234https://orcid.org/0000-0002-4448-003Xhttps://orcid.org/0000-0001-7174-9703